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Device and method for inspecting aluminum cables with a steel core (aluminum conductor steel reinforced - ascr) installed in energized electrical energy lines

a technology of aluminum conductors and steel cores, applied in measurement devices, scientific instruments, instruments, etc., can solve the problems of wrt technique affecting the subjectivity of lf (local fault) reading, wrt technique presenting some disadvantages for wrt conductor inspection, etc., to achieve the effect of reducing maintenance costs, increasing the continuity of electrical energy supply, and increasing efficiency

Active Publication Date: 2017-01-12
LIGHT SERVICOS DE ELETRICIDADE +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The invention is a device and method for inspecting aluminum cables used in power lines. The device uses a technique called ECT to evaluate the thickness of the layer of zinc that covers the steel wires of the cables. The technical effect of this invention is that it provides a reliable and non-destructive way to inspect these cables for safety and reliability, which is important for ensuring the safe operation of power lines.

Problems solved by technology

Attempts to use ECT on energized lines apparently have not been successful up to the present.
As such, the advantages and disadvantages of the existing products are associated with the characteristics of these technologies.
On the other hand, WRT presents some disadvantages for the inspection of ASCR conductors, the principal such being described below.
a) One disadvantage of the WRT technique concerns the subjectivity of the LF (Local Fault) reading as this involves a qualitative evaluation of the signal received and not the measurement of a well-defined physical magnitude.
Although it is effective for steel cables, this procedure does not apply to ASCR cables, as the steel wires are covered by the aluminum wires.
b) The reading of the LMA (Loss of Metallic Area) also presents a disadvantage in application to ASCR cables, as it can only detect a process of corrosion after this has reduced the mass of steel in a considerable section of the cable.
This means that the corrosive process is in full development, and may compromise the structural integrity of the cable in a short space of time.
Whereas, in the case of electrical energy lines, due to the operational aspects and costs involved in an inspection, it is rarely justifiable to carry out measurements on the same section of a line at short time intervals.
e) The presence of layers of aluminum wires over the steel wires is also a problem for the use of WRT in ASCR cables, as it reduces the sensitivity of the LF and LMA readings for an ASCR cable, when compared with the readings of a steel cable.
a) The ECT technique is susceptible to the presence of current in the conductor being monitored which, in principle, limits its use exclusively to de-energized lines.
b) The ECT reading is also sensitive to the temperature of the conductor, which renders it more problematic on energized lines.
c) The presence of layers of aluminum wires over the steel wires is also a problem in the use of ECT in ASCR cables, as it reduces the sensitivity of readings carried out for an ASCR cable, when compared with the readings of a steel cable.
This signal serves only as an indication that something different has happened on the section of cable, but it is not possible to know what.
However, with ASCR cables, this is not possible, as even if the robot which carries the WRT sensor has a video camera, the aluminum wires do not allow the steel nucleus to be inspected visually.
For the LMA reader to be reliable, it is necessary for a reasonable mass of steel to have been removed, which means that the corrosive process is already in full swing.
In the case of ASCR cables, the corrosive process is accelerated by contact between two different metals (galvanic corrosion), which can compromise the structural integrity of the cable in a short space of time.
Thus, this characteristic of the LMA reader does not contribute to its use in the inspection of ASCR cables.
e) The presence of aluminum wires reduces the sensitivity of the WRT technique by increasing the section without magnetic material between the magnet and the steel nucleus.
However, this magnetic permeability is affected by the presence of electric current in the conductor, due to the effect of the magnetic field generated by the current.
As a consequence, the magnetic field generated in the interior of the conductor orients the magnetic dipoles and affects the effective permeability seen by the ECT sensor.
c) The presence of aluminum wires reduces the sensitivity of the ECT technique by reducing the ratio of the area of steel to the area of solenoid (fill factor).
As only the flow of the steel brings useful information to the ECT technique, the additional flow due to the increase in the diameter of the solenoid is added to the flow of the steel and reduces the sensitivity of the measurement.

Method used

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  • Device and method for inspecting aluminum cables with a steel core (aluminum conductor steel reinforced - ascr) installed in energized electrical energy lines
  • Device and method for inspecting aluminum cables with a steel core (aluminum conductor steel reinforced - ascr) installed in energized electrical energy lines
  • Device and method for inspecting aluminum cables with a steel core (aluminum conductor steel reinforced - ascr) installed in energized electrical energy lines

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Embodiment Construction

[0048]The cable inspection device loaded onto a remotely-controlled robot, which is installed in the conductor of an energized electrical line. This robot communicates with a computer located at ground level through a radio beam, in such a way that the operator is able to supervise the data from the robot and control its movement. The data obtained by the ECT sensor are also transmitted to a computer, where they are shown on the screen and stored for subsequent analysis. Simply for illustrative purposes, FIG. 1 shows a photograph of the robot developed, which carries with it the ECT sensor which is the object of this patent application.

[0049]Below are described the techniques developed to allow the use of ECT in the inspection of energized lines. This techniques seek to:[0050]Compensate for the modulation of the magnetic permeability of the steel;[0051]Compensate for the effect of the temperature on electrical conductivity;[0052]Increase the sensitivity of the ECT reading.

[0053]Tech...

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Abstract

This invention concerns a device and a method for inspecting aluminum cables with a steel core (ASCRs), installed in energized electrical energy lines, which use the ECT (Eddy Current Testing) technique for evaluating the remaining thickness of the zinc layer which covers the steel wires of the cables inspected, where the readings of the tension of the detection solenoid and the current of the excitation solenoid are taken as the current of the conductor reaches zero, the electrical parameters of the conductor are corrected for the average temperature during the inspection and the signal from the detection solenoid is filtered through a hybrid circuit which is designed to increase the sensitivity of the measurement.

Description

FIELD OF APPLICATION[0001]This invention, in a general sense, concerns the inspection of cables of electrical energy distribution and transmission networks, in particular, the inspection of aluminum cables with a steel core, installed in energized electrical energy lines.BASIS FOR THE INVENTION[0002]Electrical energy lines are normally formed of conductor cables of the ASCR type (Aluminum conductor steel reinforced), which are composed of a nucleus of galvanized steel wires covered by one or two layers of aluminum wires. The steel nucleus provides mechanical support for the cable, while the aluminum wires conduct the electrical current. With the passing of the years and exposure to weathering, the steel nucleus suffers a process of corrosion which progressively consumes the zinc layer which constitutes the galvanization of the nucleus. Once the zinc is consumed, the contact between the aluminum and steel gives rise to a process of accelerated corrosion (galvanic corrosion) which deg...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G01N27/90
CPCG01N27/9006G01N27/82G01N27/9013G01N27/9046G01N27/902G01N27/87
Inventor BARBOSA, CELIO FONSECANALLIN, FLAVIO EDUARDODE SOUZA, RAPHAEL NUNES
Owner LIGHT SERVICOS DE ELETRICIDADE
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